Transparent Conductive Two-Dimensional Titanium Carbide
Epitaxial Thin Films

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Abstract

Since the discovery of graphene, the quest for two-dimensional (2D) materials has intensified greatly. Recently, a new family of 2D transition metal carbides and carbonitrides (MXenes) was discovered that is both conducting and hydrophilic, an uncommon combination. To date MXenes have been produced as powders, flakes, and colloidal solutions. Herein, we report on the fabrication of ∼1 × 1 cm ² Ti ₃C ₂ films by selective etching of Al, from sputter-deposited epitaxial Ti ₃AlC ₂ films, in aqueous HF or NH ₄HF ₂. Films that were about 19 nm thick, etched with NH ₄HF ₂, transmit ∼90% of the light in the visible-to-infrared range and exhibit metallic conductivity down to ∼100 K. Below 100 K, the films’ resistivity increases with decreasing temperature and they exhibit negative magnetoresistance—both observations consistent with a weak localization phenomenon characteristic of many 2D defective solids. This advance opens the door for the use of MXenes in electronic, photonic, and sensing applications.

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Two Dimensional Atomic Crystals

D Jiang, K. S. Novoselov, T. Booth … (2005)

We report free-standing atomic crystals that are strictly 2D and can be viewed as individual atomic planes pulled out of bulk crystals or as unrolled single-wall nanotubes. By using micromechanical cleavage, we have prepared and studied a variety of 2D crystals, including single layers of boron nitride, graphite, several dichalcogenides and complex oxides. These atomically-thin sheets (essentially gigantic 2D molecules unprotected from the immediate environment) are stable under ambient conditions, exhibit high crystal quality and are continuous on a macroscopic scale.

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Intercalation and delamination of layered carbides and carbonitrides.

Olha Mashtalir, Michael Naguib, Vadym Mochalin … (2013)

Intercalation and delamination of two-dimensional solids in many cases is a requisite step for exploiting their unique properties. Herein we report on the intercalation of two-dimensional Ti3C2, Ti3CN and TiNbC-so called MXenes. Intercalation of hydrazine, and its co-intercalation with N,N-dimethylformamide, resulted in increases of the c-lattice parameters of surface functionalized f-Ti3C2, from 19.5 to 25.48 and 26.8 Å, respectively. Urea is also intercalated into f-Ti3C2. Molecular dynamics simulations suggest that a hydrazine monolayer intercalates between f-Ti3C2 layers. Hydrazine is also intercalated into f-Ti3CN and f-TiNbC. When dimethyl sulphoxide is intercalated into f-Ti3C2, followed by sonication in water, the f-Ti3C2 is delaminated forming a stable colloidal solution that is in turn filtered to produce MXene 'paper'. The latter shows excellent Li-ion capacity at extremely high charging rates.

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Atomic layers of hybridized boron nitride and graphene domains.

Lijie Ci, Li Song, Chuanhong Jin … (2010)

Two-dimensional materials, such as graphene and monolayer hexagonal BN (h-BN), are attractive for demonstrating fundamental physics in materials and potential applications in next-generation electronics. Atomic sheets containing hybridized bonds involving elements B, N and C over wide compositional ranges could result in new materials with properties complementary to those of graphene and h-BN, enabling a rich variety of electronic structures, properties and applications. Here we report the synthesis and characterization of large-area atomic layers of h-BNC material, consisting of hybridized, randomly distributed domains of h-BN and C phases with compositions ranging from pure BN to pure graphene. Our studies reveal that their structural features and bandgap are distinct from those of graphene, doped graphene and h-BN. This new form of hybrid h-BNC material enables the development of bandgap-engineered applications in electronics and optics and properties that are distinct from those of graphene and h-BN.

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Author and article information

Journal

Journal ID (nlm-ta): Chem Mater

Journal ID (iso-abbrev): Chem Mater

Journal ID (publisher-id): cm

Journal ID (coden): cmatex

Title: Chemistry of Materials

Publisher: American Chemical Society

ISSN (Print): 0897-4756

ISSN (Electronic): 1520-5002

Publication date (Electronic): 28 February 2014

Publication date (Print): 08 April 2014

Volume: 26

Issue: 7

Pages: 2374-2381

Affiliations

[† ]Department of Materials Science & Engineering, Drexel University , Philadelphia, Pennsylvania 19104, United States

[‡ ]A.J. Drexel Nanomaterials Institute, Drexel University , Philadelphia, Pennsylvania 19104, United States

[§ ]Thin Film Physics Division, Department of Physics, Chemistry and Biology (IFM), Linköping University , SE-581 83, Linköping, Sweden

Author notes

[* ]E-mail: barsoumw@ 123456drexel.edu .

[* ]E-mail: perek@ 123456ifm.liu.se .

[* ]E-mail: gogotsi@ 123456drexel.edu .

Article

DOI: 10.1021/cm500641a

PMC ID: 3982936

PubMed ID: 24741204

SO-VID: 7e26e7ae-07bc-49f9-a266-e2de8fea3a62

License:

History

Date received : 22 February 2014

Custom metadata

document-id-old-9 cm500641a

document-id-new-14 cm-2014-00641a

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ScienceOpen disciplines: Materials science

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ScienceOpen disciplines: Materials science

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Transparent Conductive Two-Dimensional Titanium Carbide Epitaxial Thin Films

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